‘44
ORGANIC ACID I N SORGHVM JIrICE.
tion is essential to the production of a carefully prepared pyroxylin. This drying is best carried out on the form of drier used in drying wool. T h e plan of such a drier is given in Fig. I. T h e surface a is covered with wire cloth. having 3 half inch mesh, and should be galvanized. Heater coils can be placed m-ithin the frame b and the hot air forced through the fiber by inearis of the rotary fan r . If the fiber is found to need scouring to make it fit for the process of nitration, it is best scoured by those who make a business of this branch. Absorbent cotton is produced on such a large scale at the present time, that the manufacturers will sell it at a very low figure, iri order to keep their plants in operation. T h e author obtained the fiber used by him for several years from this source. .~.
-
-
[CONTRIBUTIONSFROM THE CHEMICALDIVISIOX,U. S. DEPARTMENT OF AGRICULTURE,NO. 6 ; SENT BY H. W. ’U’ILEY].
THE PREDOMINANT ORGANIC ACID IN S O R G H U I JUICE.’ Ih’ OMMA CARK. ~ e ~ ~I U~U ~I>, 1nril ~ . ~ i
1
N the work of the Department of Agriculture during the past few years attention has often been called to peculiarly tenacious and difficultly soluble incrustations forming upon the tubes of the evaporating apparatus of the sorghum-sugar houses of Kansas. Owing to the formation of these incrustations and the difficulty of removal the processes of manufacture are greatly impeded. Dr. Wiley collected a large amount of this scale at Medicine Lodge and directed me to make a study of its composition and properties. T h e following paper gives the results of a brief study of the scale. T h e scale examined was in pieces of varying sizes, retaining the contour of the tubes from which it had been removed. X quantity of fifteen pounds was taken from some three hundred pounds forwarded from the factory at Medicine Lodge. T h e scale as prepared for examination consisted of a powder sufficiently fine to pass an eighty mesh sieve. T h e analyses of two samples of the scale, one designated I
Read before the Chemical Society of Washinston, May
11,
1893.
ORGANIC A C I D I N SORGHUM
I45
JUICE.
" Special," selected by Dr. Wiley for its size and cleanliness, and " Ordinary, " representing the whole quantity removed, gave the following results : "
Special."
Moisture.. ................ 13.31 per cent. Magnesium oxide.. 15.93 Calcium oxide 7.27 Carbon dioxide 0.29 (' '' Fe,O,,Al,O,,P,O, 6.22 " " Silica ..................... 2.72 I ' " Organic. .................. 54.40 " Undetermined
'' Ordinary."
:: ::
....... ............ ...........
14.21per cent. 17.70 " " 9.80 " " 2.76 4.10 " " 1.75 " " 49.31 " " 0,37 '' "
..........
............-
100.14 ''
-
....................
Carbon
23.67 per cent. of organic 43.51
' I
100.00 -
I'
"
"
'I
"
22.29 45.20
((
('
"
''
"
"
"
"
These data call for no special comments, aside from noting that the common scale has lain long enough for the absorption of considerable carbon dioxide, and that the elimination of this constituent would secure a greater uniformity between the two samples. Sulubilify.-The ground material, one gram in quantity, was boiled an hour and a half with fifty cc. of the solvent, filtered hot upon a weighed asbestos film in a Gooch crucible, washed with alcohol and ether, dried at 105' and weighed. For this determination the ' I Special" sample was used, and it may be assumed that the slightly different composition of the two samples would cause but slight variation in the results. Per cent. soluble.
Solvent.
.......... 95.67 .......... 95.00 .......... 95.97 I O :: .......... 95.87 20 Mean.. .... 95.85 2 per cent. H,SO, ........ 94.48 ........ 95.81 IO :: :: 2
per cent. HC1 "
"
"
"
"
1'
"
6 8
L'
'Z0
'1
(1
........ 95.85
........81.03 Mean ...... 91.79
''
"
I*
2
5 Io 2o
per cent. NaOH ( 1 " (' I'
6'
1'
(1
"
'(
(2nd) 95.38
........ ........ 67*15 62.45 ........ 59.85 ........60.35
Mean.. *Boiled only one hour.
.... 62.45
Per cent. Inorganic iiisoluble.
2.85 2.78 2 60 2.59
Per cent. Organic insoluble I .48 1.32 1 *43
-
1.54 -
2.70 3.67 2.56 2.74 16.29 6.32 2.99 21.58 24.68 29.47 26.29
1.45 1.85 1.63 1.41 2.68
--
26.29
I .89 I .63
11.27 12.87 10.68 10.20
--
11.26
#Omitting the twenty per cent. determination.
146
O R G A N I C A C I D I S SORGHUX J U I C E .
I t is seen from these results that hydrochloric acid has the highest solvent power of the three tried. Subtracting the organic insoluble from the total insoluble, the difference corresponds alniost exactly to the per cent. of silica, shoivirig that, aside from the small percentage of organic matter, tlie hydrochloric acid dissolves every thing but the silica. I t is notable that the solvent power of hydrochloric acid depends very little upon its concentration. T h e sorliuiii hydroxide dissolves less than either acid, its power decreasing with increase of concentration. T h e portion insoluble in sodium hydroxide contains no silica. In cleaning incrusted tubes. the above results, as well as good practice, suggest a procedure in which the use of hydrochloric acid precedes that of the lye. .Is the work 011 the scalewas done principally with the view of isolating and distinguishing the chief organic acids present, the following plan was pursued : Finely divided scale (passing eighty mesh) was added to boiling sulpliuric acid in ten per cent. solution until solvent action ceased aiid filtered hot, the filtrate being perfectly clear and transparent. T h e filtrate was cooled and two volumes eighty per cent. alcohol added. T h e calciuni and magnesium sulphates precipitated were removed by filtration. T h e alcohol was expelled froiii thp filtrate and the latter considerably reduced in volume 1)y evaporation. There \vas added noiv a very strong alcohol (five volumes) and the white precipitate allowed to settle. I t ~ v n sdecanted and \)*aslied with aIcoIiol. T h e precipitate ivas purified by dissolving in water and repeated reprecipitation by nlcoliol. Finally froni tlie solution in water free of carbon dioxide it was precipitated with a carbon dioxide-free solution of acetate of lead. T h i s product was purified by repeated deconiposition wit.11 h\xIrogen sulphide and reprecipitated with lead acetate. T h e final precipitation yielded in)- salt ( I ) ,or ' ' scale salt ' ' the conibustioii of which gave : Carl)oti ................................. Ilydrogen ............................... 1,ead. ...................................
Oxygen (difference)
.....................
Per cent
13.884 I ,210
js.:zo 26.486
IoO.ooO
I47
O R G A N I C A C I D I N S O R G H U M JUICE.
T h e salt contained 2.46 per cent. moisture, eliminating which would give the tollowing numbers : Per cent.
.................................. 14.23 ........................... .'.. . 0.94 ..................................... 62.11 .................................. 22.72
Carbon Hydrogen Lead Oxygen
I00.00
These figures correspond to the formula : (C,H,O,),Pb,, or tri-plumbic citrate. After digestion with sulphuric acid the insoluble residue, undried and unwashed, subjected to analysis, gave the following numbers :
................................ ......................... ......................... .................................... ....................................... .................................. ..........................
Moisture Calcium oxide.;. Fe,O, a n d A1,03.. Silica SO3 Organic Undetermined..
Per cent
6.83 13.92 I .70
4.26 62.43 10.47 0.39
--
100.00
T h e SO, present was combined, twenty per cent. with calcium (42.77 per cent. sulphate), and 1.98 per cent. with the Fe and A1 (3.88 per cent. sulphates). T h e rest was free H,SO,. Eliminating the SO, we have :
............................... .......................... .......................... .................................... .................................. ..........................
Moisture.. Calcium oxide.. Fe,O, and AI@,. Silica Organic Undetermined..
Per cent.
18.18 37.05 4.52 11.34 2737 1.04 100.00
Reducing to a water-free basis these data become : Calcium oxide.. Fe,O, a n d AI@,. Silica Organic Undetermined..
..........................
.......................... ........ .,.. ........................ .................................. ..........................
Per cent.
45.28 5.52 13.86 34.06 I .28 100.00
148
O R G A N I C A C I I ~ IN S O R G H r M JCICE.
Reducing original scale to water-free substance and comparing its analysis with that of the residue after digestion we have : i) vig i i i e l .
Ke\idiic.
Magnesium oxide ......... 20.63 per cent. Calcium oxide ............ I 1 l i Carbon dioxide. ........... , j . ~ 1 2 Fe,O, and h 1 , 0 , . .......... 4.78 Silica ..................... 2.04 " Organic .................. 57.4s *' Yndettrriiined ............ 0.43 '